JP4677440B2 - Laryngeal airway device - Google Patents

Description

(Background of the Invention)
The present invention relates to a laryngeal airway device. More specifically, the present invention relates to improved geometrical and design configurations for laryngeal airway devices.

  It is common practice to use an airway device known as a laryngeal mask for administration of anesthetic and ventilation gases to a patient. These airway devices comprise a tube having an inflatable mask or cuff at one end. This tube is inserted into the patient's mouth so that one end is located in the hypopharynx so that the mask forms a seal with the surrounding tissue in this region. Laryngeal masks are provided by many suppliers.

  A laryngeal airway device is a device that fills the gap between the tracheal intubation and the face mask. This laryngeal airway device is inserted blindly into the pharynx and forms a low pressure seal around the laryngeal inlet. This stimulates the airways to a minimum and thus avoids unwanted sympathetic stimulation associated with laryngoscopy. This laryngeal airway device provides a way to establish the airway during anesthesia in both adults and children and plays a useful role in the management of difficult airways.

  As shown in FIG. 1, a typical laryngeal airway device is composed of medical grade silicone rubber that does not contain latex in any part. This allows the laryngeal airway device to withstand repeated autoclaves. This device has a shaft or airway tube 1 with an inner diameter ranging from 5.25 mm to 12 mm, depending on the size of the laryngeal airway device. This shaft is fused at an angle with a distal oval spoon-shaped mask 2 having an inflatable edge or cuff similar to a small face mask. This shaft opens into an elliptical concave surface through the opening. This opening has an opening bar 3 across the open part to prevent the epiglottis from falling over and blocking the lumen. A variety of different sized laryngeal airway devices are available and are suitable for different sized patients, from newborn patients to adult patients.

  When properly positioned, the cuff tip of the laryngeal airway device is located at the base of the hypopharynx facing away from the upper part of the esophageal sphincter, the side is located at the piriform depression, and the upper boundary of the mask is the tongue Located at the base of the tongue, pushing the tongue forward. The epiglottis is often located in the bowl of the laryngeal airway device, but the device works well even when the epiglottis is in a horizontal upright or folded down position. When the cuff is around the opening to the larynx, a syringe is connected to the valve 4 and inflates the cuff by injecting air into the cuff via the expansion line 5 so that there is a gap between the cuff and the larynx. There is no gap. The expansion line 5 reaches the cuff 2 at the expansion line inlet 8, which is also typically the mold extraction point or orifice used during the formation of the cuff 2. The inflatable line balloon 6 reflects the degree of cuff inflation. Typically, the airway tube comprises a 15 mm connector 7 fixedly attached to its proximal end.

  However, existing laryngeal airway devices suffer from various drawbacks. For example, an opening rod across the open portion of the airway prevents other devices (eg, bronchoscopes and / or endotracheal tubes) from entering the airway passage. The spoon-shaped cuff is inflated at its proximal end by a separate inflation line. In some devices, the inlet of the inflation line at the proximal end of the cuff is also the same as the mold extraction orifice used to form the cuff, and the protrusions outward from the surface of the cuff are: Provides a non-smooth exterior to the cuff. When the laryngeal airway device is inserted into the patient's airway, the separate inflation line needs to be handled carefully. It is often reported that when a laryngeal airway device is inserted, the cuff folds over itself. A broken cuff prevents the cuff from being properly inflated, thereby preventing effective placement of the device. In addition, a 15 mm connector typically located at the proximal end of the airway tube may also prevent insertion of other devices into the airway tube.

  Thus, there is a need for an improved laryngeal airway device that is not plagued by these drawbacks.

(Simple Summary of Invention)
The present invention relates to a laryngeal airway device. In one embodiment, the present invention provides a laryngeal airway device having an airway tube. The airway tube has an internal passage in the wall of the airway tube to receive the cuff inflation line. The device is also a dome having an inlet and an outlet, connected to the distal end of the airway tube at the inlet of the dome; an annular spoon-shaped inflatable connected to the periphery of the outlet of the dome A cuff inflation line configured to be in fluid communication with the interior space of the cuff; and a plurality of lobe openings formed in the dome. The opening is configured to be in fluid communication with the proximal end of the airway tube. The dome also has several protrusions that form a plurality of lobe openings so that when the device is inserted into the patient, the opening of the opening is blocked by the patient's epiglottis. It is configured.

  In one aspect, the device also includes a protruding dome tip that is coupled to the distal end of the dome outlet. The distal end of the protruding dome tip is disposed within the cuff interior space and is in fluid communication with the interior space.

  In another aspect, the dome also includes a groove configured to hold a cuff inflation line within the dome.

  In another aspect, the dome outlet further comprises a tray portion, and the cuff further comprises a channel on the inner surface of the annular shaped cuff, whereby the channel is at the tray portion of the dome outlet. Connected with the surroundings.

  In another aspect, the outer surface of the cuff is formed such that there are no outer protrusions. The cuff also includes a mold extraction orifice at its distal end, the orifice is formed on the inner surface of the cuff, and the cuff expansion line is in fluid communication with the interior space of the cuff at the opening with the mold extraction orifice. It is configured as follows.

  In another aspect, the device also includes a removable connector coupled at the proximal end of the airway tube.

  In another aspect, the cuff inflation line is configured to be in fluid communication with the cuff interior space at the distal end of the cuff. The device also includes an inflation line insertion point that is offset distally from the proximal end of the airway tube, which serves as the proximal end and is integral with the internal passage.

  For a further understanding of the nature and advantages of the present invention, reference should be made to the following description taken in conjunction with the accompanying drawings.

(Detailed description of the invention)
FIG. 2 is a perspective view of a laryngeal airway device 10 according to an embodiment of the present invention. Airway tube 100 connects to dome 300 at the distal end of the tube. At the proximal end of the tube 100, the tube 100 is coupled with a removable connector 104. In contrast to the more common method of gluing and attaching the connector to the tube, the connector 104 is pressure fitted in place and is not glued and attached to the tube 100. In this manner, the connector 104 is easily removable and allows for the insertion of another device, such as an endotracheal tube or bronchoscope through the airway tube 100. Endotracheal intubation introduces a tube into the trachea to provide an open airway for administering oxygen, gaseous medications, or anesthetics; this also removes obstructions or looks at the inner wall It is also made for that purpose. Thus, by allowing removal of this connector 104, the deployed laryngeal airway device may also facilitate endotracheal intubation. The cuff 200 is connected to the dome 300. The dome 300 has a plurality of lobe shaped openings and is described in further detail below. The inflation line 400 enters the tube 100 at the inflation line insertion position 407 and passes through the tube 100. The inflation line 400 passes through the tube 100, through the groove in the dome 300, and connects to the cuff at the distal end of the cuff. The cuff 200 has a smooth outer surface with no protrusions. A syringe is used to connect with valve 404 and fills the cuff with air to inflate the cuff. Valve 404 is a check valve and prevents passive backflow of air from its cuff. An inflation balloon 402 coupled downstream of the valve 404 provides an indication of the cuff inflation level. The inflation line insertion location 407 is offset from the proximal end of the tube 100, allowing operation of the device even when the proximal end needs to be cut. Deviation of the inflation line insertion position 407 from the proximal end of the tube 100 allows a significant portion of the tube 100 to be cut and still not adversely affect the cuff inflation or deflation operation.

  FIG. 3 is a detailed view of the bottom or airway side of the distal end of the device of FIG. FIG. 3 shows the tube 100 ending in the dome 300. The dome has an opening or open portion 302 and a groove along its top. This groove is configured to receive the inflation line 400. The expansion line 400 passes along the groove and reaches the connector 406. This connector 406 is used to deliver air to inflate the cuff 200. The opening has a plurality of lobes, preferably elongated. It is the protrusion that separates the lobe that defines the lobe. One of the protrusions is formed at the proximal end. This protrusion comprises a flexible flap, preferably in the shape of a tongue, and is larger than the other protrusions. Smaller protrusions are preferably less flexible or stiffer than their flaps. The opening 302 is shaped in this manner and helps prevent obstruction of the epiglottis airway. In addition, the protrusions of the multi-lobe design (as opposed to the more common bar that extends completely across such open parts) allow other devices (eg bronchoscopes or endotracheas) Tube) can enter the airway passage. If such other device has entered the airway passage, the flap will bend and push the epiglottis back to allow efficient insertion of the bronchoscope or other device into the airway. None of the protrusions extend until they completely cross the open part of the airway. The protrusion may be formed integrally with the dome.

  The cuff 200 is attached to the dome using known techniques. In addition, the cuff includes a channel 202 on its inner surface. Channel 202 is configured to mate with a complimentary tray 412 (shown in FIG. 4) on the lower side of the dome. Together, the channel 202 and the tray 412 provide an improved binding surface. This bonding surface provides a more secure structure for bonding the cuff with the dome. The placement of the channel and tray also ensures a proper mechanical fit by allowing the spoon-shaped cuff and dome to fit in the middle. The channel and tray arrangement also allows for a more repeatable assembly of the cuff and the dome.

  4 is a detailed view of FIG. 3 with the cuff 200 removed. As described above, FIG. 4 shows the tube 100 ending with the dome 300. Surrounding the dome (at least in part) is a tray 412. Together, channel 202 and tray 412 (shown in FIG. 3) provide an improved binding surface. This bonding surface provides a more secure structure for bonding the cuff with the dome. The tray 412 may be formed integrally with the dome 300 or may be a separate piece that is bonded or bonded to the dome 300. The dome 300 has a plurality of lobed openings 302 and a groove along the top of the dome. The groove is configured to receive the expansion line 400. The inflation line 400 reaches a connector 406, which is used to deliver air to inflate the cuff 200. The multiple lobe opening 302 is in this style of shape and helps prevent obstruction of the epiglottis airway. Also shown is a protruding dome tip 408 that connects to and extends from the connector 406. This protruding dome tip 408 fits inside the cuff at the distal end of the cuff and helps prevent the cuff from bending during insertion. In one embodiment, the protruding dome tip 408 is less elastic than the cuff to help prevent the cuff from folding over itself when the device is inserted into the patient. . In one embodiment, the protruding dome tip 408 has a cross-cut structure or side slit 410 at its distal end to help prevent possible air blockage. This air occlusion occurs particularly during removal of the laryngeal activation device and can be caused by placing the inner wall of the cuff adjacent to the distal end of its dome tip 408. Other slits or cutting configurations can be contemplated that allow for air flow between the cuff and the air expansion line even when the inner surface of the cuff is held against the dome tip. Examples of such a cutting form include a slot, a Philips type slot, and a star type. FIG. 5 is another perspective view of the device of FIG.

  FIG. 6 is a top view of the device of FIG. FIG. 6 shows the tube 100 ending at the distal end of the dome 300. The dome 300 is surrounded by a complementary spoon-shaped cuff 200. The cuff 200 has a smooth outer surface, in contrast to typical prior art devices (see FIG. 1), to prevent trauma that can be caused by protrusions protruding out of the outer surface of the cuff. Help. The mold extraction orifice 204 is located at the distal inner end of the cuff 200 (e.g., instead of the proximal outer end as shown in FIG. 1) and is at the same position as the dome insertion position, and the outer surface of the cuff is smooth. Make sure that there is. Further, having the mold extraction orifice 204 located at the same position as the dome insertion position ensures a simple manufacturing process for the laryngeal airway device according to embodiments of the present invention, thus improving production throughput, Reduce the cost of each unit.

  FIG. 7 is a detailed cross-sectional view of the distal end of a laryngeal airway device according to an embodiment of the present invention. FIG. 7 shows the tube 100 connected to the dome 300 at its distal end. The tube has a passageway 102 formed in the tube and receives an air expansion line 400. The air expansion line passing through the passage 102 in the tube 100 continues to the groove 302 in the dome 300 and ends at the protruding dome tip 408. The dome tip 408 fits inside the cuff 200 and provides a flow path for inflating or deflating the cuff.

  FIG. 8 is a detailed view of a cuff 200 of a laryngeal airway device according to an embodiment of the present invention. The cuff 200 includes a channel 202 on its inner surface. Channel 202 is configured to mate with a complementary-shaped tray 412 (shown in FIG. 4) on the lower side of dome 300. As described above, the cuff 200 is formed without any protrusions on the outer surface of the cuff.

  FIG. 9 is a diagram of an embodiment of an airway tube 100 of a laryngeal airway device according to an embodiment of the present invention. FIG. 9 shows an airway tube 100 with a passageway 102. This passage 102 is configured to receive an air expansion line 400 (shown in FIG. 2). Further, FIG. 9 shows an inflation line insertion location 407 formed offset from the proximal end of the tube 100. The inflation line 400 (shown in FIG. 2) enters the tube 100 at the inflation line insertion location 407, passes through the tube 100, and connects with the cuff to inflate or deflate the cuff.

  The improved devices described herein are manufactured using medical grade plastic materials, such as medical grade PVC. The novel features of the improved device described herein can all be combined in one laryngeal airway device, or a different set of laryngeal airway devices can be manufactured, each of which is described herein. Having one or a combination of the novel features described. It is also contemplated that a variety of different sized devices according to embodiments of the present invention are provided to fit different sized patients, from newborn patients to adult patients.

  As will be appreciated by those skilled in the art, the present invention may be embodied in other specific forms without departing from its essential characteristics. For example, devices according to embodiments of the present invention can be made using a variety of different materials and in many different sizes. These other embodiments are intended to be included within the scope of the present invention as set forth in the appended claims.

FIG. 1 is a diagram of a prior art laryngeal airway device. FIG. 2 is a perspective view of a laryngeal airway device according to an embodiment of the present invention. FIG. 3 is a detailed view of the bottom or airway side of the distal end of the device of FIG. 4 is a detailed view of FIG. 3, shown without a cuff. FIG. 5 is another perspective view of the device of FIG. FIG. 6 is a top view of the device of FIG. FIG. 7 is a detailed cross-sectional view of the distal end of a laryngeal airway device according to an embodiment of the present invention. FIG. 8 is a detailed view of a cuff of a laryngeal airway device according to an embodiment of the present invention. FIG. 9 is an illustration of an embodiment of an airway tube of a laryngeal airway device according to an embodiment of the present invention.

Claims (20)

A laryngeal airway device comprising:
An airway tube having a proximal end and a distal end, the airway tube having an internal passage in the wall of the airway tube;
A dome having an inlet and an outlet, the dome being connected to the distal end of the airway tube at the inlet of the dome;
An annular spoon-shaped inflatable cuff connected to the periphery of the outlet of the dome;
A cuff inflation line having a proximal end and a distal end, the cuff inflation line configured to be in fluid communication with the interior space of the cuff; and formed in the dome An opening having a plurality of lobes, wherein the opening is configured to be in fluid communication with the proximal end of the airway tube, the dome having a plurality of protrusions forming the opening; And one of the protrusions comprises an opening configured to prevent occlusion of the opening by the patient's epiglottis when the device is inserted into the patient ;
The cuff inflation line is, that have been configured to the interior space in fluid communication with the cuff at the distal end of the cuff, device. The device of claim 1, wherein one of the protrusions comprises a flexible flap. The device of claim 1, wherein the other of the protrusions is less flexible than one of the protrusions. The device of claim 1, wherein one of the protrusions is larger than the other of the protrusions. The device of claim 1, wherein a plurality of the plurality of lobes is elongated. The device of claim 1, further comprising a protruding dome tip coupled to the distal end of the outlet of the dome, the distal end of the protruding dome tip. Is a device disposed in the interior space of the cuff and in fluid communication with the interior space. The device of claim 1, wherein the dome further comprises a groove and the cuff inflation line is configured to fit into the groove. The device of claim 1, wherein the outlet of the dome further comprises a tray portion, and the cuff further comprises a channel on an inner surface of the annular shaped cuff, the channel comprising the channel of the dome. A device connected around the outlet and at the tray portion. The device of claim 1, wherein the outer surface of the cuff is formed without an outer protrusion, the cuff having a mold extraction orifice at its distal end formed on the inner surface of the cuff. The device further comprising: the cuff inflation line configured to be in fluid communication with the interior space of the cuff at an open portion comprising the mold extraction orifice. The device of claim 1, further comprising a removable connector coupled to the proximal end of the airway tube. The Rise Zhang line insertion point of the airway tube is offset from the proximal end to the distal, the insertion point is proximal end, which is the internal passage integrally, the device according to claim 1.   The device of claim 11, wherein a portion of the total length of the cuff inflation line is disposed within the passage. A laryngeal airway device comprising:
An airway tube having a proximal end and a distal end, the airway tube having an internal passage in the wall of the airway tube;
A dome having an inlet and an outlet, the dome being connected to the distal end of the airway tube at the inlet of the dome;
An annular spoon-shaped inflatable cuff, the cuff being connected around the outlet of the dome;
A cuff inflation line having a proximal end and a distal end, the cuff inflation line configured to be in fluid communication with the interior space of the cuff; and the cuff inflation line of the outlet of the dome A protruding dome tip coupled to the distal end, wherein the distal end of the protruding dome tip is located in the interior space of the cuff and is in fluid communication with the interior space. A dome tip ,
The cuff inflation line is, that have been configured to the interior space in fluid communication with the cuff at the distal end of the cuff, device. 14. The device of claim 13, wherein the projecting dome tip is in fluid communication with the interior space of the cuff when the cuff is adjacent to the distal end of the projecting dome tip. The device, wherein the protruding dome tip comprises a slit at its distal end so as to maintain. 14. The device of claim 13, wherein the protruding dome tip is less than the cuff to prevent the cuff from folding over itself when the device is inserted into a patient. The device is not even elastic. A laryngeal airway device comprising:
An airway tube having a proximal end and a distal end, the airway tube having an internal passage in the wall of the airway tube;
A dome having an inlet and an outlet, the dome being connected to the distal end of the airway tube at the inlet of the dome, the outlet having a tray portion;
An annular spoon-shaped inflatable cuff, the cuff having a channel on the inner surface of the annular-shaped cuff, the channel being connected to the periphery of the outlet of the dome at the tray portion A cuff inflation line having a proximal end and a distal end, the cuff inflation line configured to be in fluid communication with the interior space of the cuff ;
The cuff inflation line is, that have been configured to the interior space in fluid communication with the cuff at the distal end of the cuff, device. A laryngeal airway device comprising:
An airway tube having a proximal end and a distal end, the airway tube having an internal passage in the wall of the airway tube;
A dome having an inlet and an outlet, the dome connected to the distal end of the airway tube at the inlet of the dome;
An annular spoon-shaped inflatable cuff connected to the periphery of the outlet of the dome, the outer surface of the cuff being formed without an outer protrusion, the cuff being A cuff comprising a template extraction orifice at its distal end formed on the inner surface of the cuff; and a cuff inflation line having a proximal end and a distal end, the cuff inflation line comprising the mold extraction orifice A cuff expansion line configured to be in fluid communication with the interior space of the cuff at an open portion comprising:
A device comprising: A laryngeal airway device comprising:
An airway tube having a proximal end and a distal end, the airway tube having an internal passage in the wall of the airway tube;
A dome having an inlet and an outlet, the dome connected to the distal end of the airway tube at the inlet of the dome;
An annular spoon-shaped inflatable cuff, the cuff being a cuff inflation line having a proximal end and a distal end connected to the periphery of the outlet of the dome, the cuff inflation line is configured to be in fluid communication with the interior space of the cuff, the cuff inflation line; is connected to the proximal end of and the gas passage tube, provided with a removable connector,
The cuff inflation line is, that have been configured to the interior space in fluid communication with the cuff at the distal end of the cuff, device. A laryngeal airway device comprising:
An airway tube having a proximal end and a distal end, the airway tube having an internal passage in the wall of the airway tube;
A dome having an inlet and an outlet, the dome being connected to the distal end of the airway tube at the inlet of the dome;
An annular spoon-shaped inflatable cuff connected to the periphery of the outlet of the dome;
A cuff inflation line having a proximal end and a distal end, the cuff inflation line configured to be in fluid communication with the interior space of the cuff at the distal end of the cuff; and An inflation line insertion point offset distally from the proximal end of the airway tube, the insertion point being a proximal end and integral with the internal passageway;
A device comprising: The device of claim 19, wherein a portion of the total length of the cuff inflation line is disposed within the passage.

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